一、主持的科研项目: [1] 国家自然科学基金青年项目(22109135),主持,2022-2024. [2] 湖南省自然科学基金青年项目(2022JJ40423),主持,2022-2024. [3] 中国博士后科学基金特别资助(站前)(2022TQ0265),主持,2022-2024. [4] 湖南省教育厅科学研究项目-优秀青年(23B0126),主持,2023-2025. [5] 湖南省普通高等学校教学改革研究项目(HNJG-20230309),主持,2023-2027. [6] 金沙9170登录线路人才引进科研启动项目,主持,2020. 二、期刊论文 1. 2023年: [1] Zhang D, Duan T F, Shu H B*, Pei Y*, Wang X Y*, Chen M F*, et al. Oxygen Defect‐Rich WO3− x–W3N4 Mott–Schottky Heterojunctions Enabling Bidirectional Catalysis for Sulfur Cathode[J]. Advanced Functional Materials, 2023: 2306578. (中科院一区,IF=19.0) [2] Zhou X, Huang X L, Chen M F*, Wang X Y*, et al. An advanced SRR catalyst based on hollow polyhedral carbon skeleton modified by Tri-metal (Zn, Co, Fe) for Li-S batteries[J]. Chemical Engineering Journal, 2023, 471: 144806.(中科院一区,IF=15.1) [3] Luo Y X, Zhang D, Shu H B*, Wang X Y*,Chen M F*, et al. Intergrated morphology engineering and alloying strategy for FeNi@ NC Catalysts: Tackling the polysulfide shuttle in Li-S batteries[J]. Chemical Engineering Journal, 2023, 474: 145751.(中科院一区,IF=15.1) [4] Luo Y X, Wu M, Chen M F*, Wang X Y*, et al. Boosted Polysulfide Conversion by Co, Mn Bimetallic-Modulated Nitrogen–Carbon Material for Advanced Lithium–Sulfur Batteries[J]. ACS Sustainable Chemistry & Engineering, 2023, 11(3): 1087-1099.(中科院一区,IF=8.4) [5] He Y Q, Luo Y X, Wang X Y*, Chen M F*, et al. MoO2/t-C3N4 Heterogeneous Materials with Bidirectional Catalysis for the Rapid Conversion of S Species in Li–S Batteries[J]. ACS Applied Materials & Interfaces, 2023, 15 (39), 45915-45925.(JCR一区,IF=9.5) [6] Dong Y, Zhang D, Shu H B*, Wang X Y*, Chen M F*, et al. Inhibiting polysulfide shuttling with a flexible “skin” for highly stable Lithium-Sulfur batteries[J]. Materials Letters, 2023, 343: 134378.(JCR二区,IF=3.0) [7] Luo Y X, Wu B,Chen M F*, Wang X Y*, et al. Two-dimensional VSe2/CNT functional materials boosted polysulfide conversion for high stability lithium-sulfur battery[J]. Materials Letters, 2023, 346: 134511.(JCR二区,IF=3.0) 2. 2022年: [8] Liu M, Chen M F*, Wang X Y*, et al, rGO-Encapsulated Co/Ni Dual-Doped FeF3· 0.33 H2O Nanoparticles Enabling a High-Rate and Long-Life Iron (III) Fluoride-Lithium Battery[J]. Chemical Engineering Journal, 2022: 138774. [9] Zhang D, Chen M F*, Wang X Y*, et al, ZnFe2O4-Ni5P4 Mott-Schottky Heterojunctions to Promote Kinetics for Advanced Li-S Batteries[J]. ACS Applied Materials & Interfaces, 2022, 14, 20, 23546–23557. [10] Zhou X, Chen M F*, Wang X Y*, et al, Engineering a TiNb2O7-Based Electrocatalyst on a Flexible Self-Supporting Sulfur Cathode for Promoting Li-S Battery Performance[J]. ACS Applied Materials & Interfaces, 2022, 14, 1, 1157–1168. [11] Zeng P, Chen M F*, Wang X Y*, et al, In-situ synthesis of highly graphitized and Fe/N enriched carbon tubes as catalytic mediums for promoting multi-step conversion of lithium polysulfides, Carbon, 2022, 192, 418-428. [12] Zhou X, Chen M F*, Wang X Y*, et al, Improving the Electrochemical Performance of Li-S Batteries via a MnCo2S4-CoS1. 097 Heterostructure with a Hollow Structure and High Catalytic Activity[J]. ACS Applied Energy Materials, 2022, 5(10): 13011-13022. [13] Yu H, Chen M F*, Wang X Y*, et al, 3D cellulose graphene aerogel with self-redox CeO2 as Li2S host for high-performance Li-S battery[J].Energy Technology, 2022. 3. 2021年: [14] Liu M, Chen M F*, Wang X Y*, et al, Unveiling the Role and Mechanism of Nb Doping and In Situ Carbon Coating on Improving Lithium-Ion Storage Characteristics of Rod-Like Morphology FeF3·0.33 H2O[J]. Small, 2021: 2105193. [15] Yu H, Chen M F*, Wang X Y*, et al. Atomically Dispersed and O, N-Coordinated Mn-Based Catalyst for Promoting the Conversion of Polysulfides in Li2S-Based Li–S Battery[J]. ACS Applied Materials & Interfaces, 2021, 13, 54113-54123. [16] Zhang D, Chen M F*, Wang X Y*, et al, A heterogeneous FeP-CoP electrocatalyst for expediting sulfur redox in high-specific-energy lithium-sulfur batteries[J]. Electrochimica Acta, 2021, 397: 139275. [17] Liu H, Chen M F*, Wang X Y*, et al, Enhancing the electrochemical performances of Li2S-based cathode through conductive interface design and addition of mixed conductive materials[J]. Electrochimica Acta, 2021, 396: 139238. [18] Zhang D, Li Z H, Chen M F*, et al, Hollow urchin-like Al-doped α-MnO2−X as advanced sulfur host for high-performance lithium-sulfur batteries[J]. Materials Letters, 2021, 285: 129135. [19] Zhang D, Huang W H, Chen M F*, et al, Core-Shell Structure S@PPy/CB with High Electroconductibility to Effective Confinement Polysulfide Shuttle Effect for Advanced Lithium-Sulfur Batteries[J]. Energy & Fuels, 2021, 35(12): 10181-10189. 4. 2020年以前: [20] Chen M F, Xu W T, Wang X Y*, et al, Multifunctional Heterostructures for Polysulfide Suppression in High-Performance Lithium-Sulfur Cathode, Small, 2018, 14(49): 1803134. [21] Chen M F, Huang C, Wang X Y*, et al, Perovskite-type La0.56Li0.33TiO3 as an effective polysulfide promoter for stable lithium-sulfur batteries in lean electrolyte condition, Journal of Materials Chemistry A, 2019,7, 10293-10302. (热点论文) [22] Chen M F, Wang X Y*, Cai S Y, et al, Enhancing the Performance of Lithium-Sulfur Batteries by Anchoring Polar Polymers on the Surface of Sulfur Host Materials, Journal of Materials Chemistry A, 2016, 4(41): 16148-16156. [23] Chen M F, Jiang S X, Wang X Y*, et al, The synergetic effects of multifunctional composite with more efficient polysulfide immobilization and ultrahigh sulfur content in lithium-sulfur batteries, ACS Applied Materials & Interfaces, 2018, 10(16): 13562-13572. [24] Chen M F, Lu Q, Wang X Y*, et al, MnO2 nanosheets grown on the internal/external surface of N-doped hollow porous carbon nanospheres as the sulfur host of advanced lithium-sulfur batteries, Chemical Engineering Journal, 2018, 335: 831-842. (高被引论文) [25] Chen M F, Jiang S X, Wang X Y*, et al, Hierarchical porous carbon modified with ionic surfactants as efficient sulfur hosts for the high-performance lithium-sulfur batteries, Chemical Engineering Journal, 2017, 313: 404-414. (高被引论文) [26] Chen M F, Zhao X M, Wang X Y*, et al, Kinetically Elevated Redox Conversion of Polysulfides of Lithium-Sulfur Battery using a Separator Modified with Transition Metals Coordinated g‑C3N4 with Carbon-Conjugated[J]. Chemical Engineering Journal, 2020, 385: 123905. [27] Chen M F, Jiang S X, Wang X Y*, et al, Suppressing polysulfide shuttle effect by heteroatom-doping for high-performance lithium-sulfur batteries, ACS Sustainable Chemistry & Engineering, 2018, 6(6): 7545-7557. [28] Chen M F, Jiang S X, Wang X Y*, et al, Honeycomb-like nitrogen and sulfur dual-doped hierarchical porous biomass-derived carbon for lithium-sulfur batteries, ChemSusChem, 2017, 10(8): 1803-1812. [29] Chen M F, Wang X Y*, Shu H B, et al. Solvothermal synthesis of monodisperse micro-nanostructure starfish-like porous LiFePO4 as cathode material for lithium-ion batteries[J]. Journal of Alloys and Compounds, 2015, 652: 213-219. 三、申请国家发明专利 [1] 王先友;刘磊;刘敏;李晓龙;余睿智;陈曼芳;阳立;邵鼎盛;罗凯丽;一种基于锡基氟化物MSnF4层状氟离子电解质的室温固态氟离子电池的制备. 2022.06.24, 中国, CN201910153815.6 [2] 杨秀康;刘淇文;曹安民;孙勇刚;陈曼芳;舒洪波;王先友;一种实现电极材料表面改性的可控方法. 2022.06.07,中国, CN202110534278.7 [3] 王先友;陈曼芳;蒋守鑫;黄成;舒洪波;一种辣椒生物碳/硫复合材料及其制备方法和应用. 2019.01.25,中国, 201811074345.6 [4] 舒洪波;夏文龙;梁倩倩;陈燕;杨秀康;陈曼芳;王先友;一种锂硫电池正极材料及其制备方法、锂硫电池. 2022.06.17, 中国, 202210683430.2 [5]王先友,陈曼芳,舒洪波等。一种具有多孔星形形貌的锂离子电池正极材料LiFePO4及其制备方法,专利号:ZL201510069405.5 四、所获奖励及荣誉 获湖南省优秀博士毕业论文、宝钢优秀学生奖、湖南省普通高校百佳大学生党员、博士研究生国家奖学金(2次)、2020-2021学年优秀班主任、2021年教师课堂教学竞赛三等奖、第二十四届研究生校长奖特等奖学金、伟人之托奖学金、芙蓉学子•学术创新奖等荣誉和奖励。 五、学生培养 张丹 (2020年硕士毕业于金沙9170登录线路,曾获得金沙9170登录线路2021-2022年度研究生国家奖学金、金沙9170登录线路2021-2022年度三好研究生、金沙9170登录线路2023年 “省级优秀毕业生”、金沙9170登录线路2023年 “校级优秀毕业生”、金沙9170登录线路2023年 “校长奖优秀奖”等荣誉) 罗益馨 (获得第六届全国锂硫电池暨碳基能源研讨会优秀墙报奖、金沙9170登录线路2022-2023年度研究生国家奖学金、金沙9170登录线路2022-2023年度十佳研究生标兵等荣誉) 六、指导大学生创新创业训练计划项目 [1] 向聪, 湖南省大学生创新创业训练计划项目《非均相双金属磷化物的设计、制备及其在锂硫电池中的应用》,院级,结题,2021.6-2023.6. [2] 董宇, 金沙9170登录线路大学生创新创业训练计划项目《基于Mott-Schottky异质结的锂硫电池正极体系及界面特性研究》,省级,在研,2022.6-2024.6. [3] 黄莉, 金沙9170登录线路大学生创新创业训练计划项目《2D-VSe2/g-C3N4功能材料催化锂硫电池机理研究》,校级,在研,2022.6-2024.6. [4] 朱凯, 金沙9170登录线路大学生创新创业训练计划项目《莫特-肖特基异质结量子点调控锂硫电池动力学研究》,省级,在研,2023.6-2025.6. [5] 李鑫, 金沙9170登录线路大学生创新创业训练计划项目《管状氮化碳/二氧化钼异质结材料的制备及其在锂硫电池中的应用》,院级,在研,2023.6-2025.6. |